Purolite Product Guide Characteristics and Applications

Characteristics and Applications
© 2011 Purolite Company. All Rights Reserved
Characteristics & Applications
Purolite Product Guide
Founded in 1981, Purolite is a leading manufacturer of ion exchange, catalyst,
adsorbent and specialty resins. With global headquarters in the United States,
Purolite is the only company that focuses 100% of its resources on the development
and production of resin technology.
Responding to the needs of our customers, Purolite has built the largest technical
sales force in the industry, the widest variety of products and five strategically located
Research and Development groups. Our ISO 9001 certified manufacturing facilities in
the U.S.A, Romania and China combined with more than 40 sales offices in 30
countries ensure complete worldwide coverage.
Inside this Characteristics and Applications summary you will find a broad overview of
all Purolite Products. For more detailed information on any product or to find a
product for an application not mentioned, please go to www.purolite.com or contact
the Purolite regional office closest to you.
Americas
Europe
Asia-Pacific
The Purolite Company
150 Monument Road
Bala Cynwyd, PA 19004
USA
Purolite International Limited
Llantrisant Business Park,
Llantrisant, Wales
CF72 8LF
UK
Purolite (China) Co Limited
Room 707, C Section
Huanglong Century Plaza
No. 3 Hangda Road
Hangzhou, Zhejiang
China 310007
Telephone: +86 571 876 31382
Fax:
+86 571 876 31385
Email: info@purolitechina.com
Telephone: +1 800 343 1500
Telephone: +1 610 668 9090
Fax:
+1 610 668 8139
E-mail: info@puroliteUSA.com
Telephone: +44 1443 229334
Fax:
+44 1443 227073
E-mail:
sales@purolite.com
INDEX
STRONG ACID CATION EXCHANGERS
Page 2
WEAK ACID CATION EXCHANGERS
Page 3
STRONG BASE ANION EXCHANGERS
Page 4
WEAK BASE ANION EXCHANGERS
Page 5
READY TO USE MIXED BEDS
Page 6
NUCLEAR GRADE PRODUCTS
Page 7
ULTRAPURE WATER PRODUCTS
Page 8
PHARMACEUTICAL PRODUCTS
Page 9
HYDROMETALLURGICAL RESINS
Page 10
ADSORBENTS
Page 11
CHROMATOGRAPHIC RESINS
Page 12
CATALYST RESINS
Page 13
CHELATING RESINS
Page 13
POWEDERED RESINS FOR CONDENSATE POLISHING
Page 14
GROUNDWATER REMEDIATION RESINS
Page 14
SPECIAL ION EXCHANGERS
Page 15
SPECIAL PRODUCTS
Page 16
ABBREVIATIONS
Page 17
Page 1
STRONG ACID CATION EXCHANGERS
TYPE
IONIC
FORM
TOTAL
VOLUME
CAPACITY
eq/l
MOISTURE
RETENTION
%
SPECIFIC
GRAVITY
REVERSIBLE
SWELLING
%
C100
Gel
Polystyrenic
Na+
2.0
44 - 48
1.29
Na → H
8
Primary softening and demineralization resin.
C100E
Gel
Polystyrenic
Na+
1.9
46 - 50
1.27
Ca →Na
8
Na →H
10
Softening and demineralization resin, widely used
in industrial and domestic applications. Potable
water grade.
C120E
Gel
Polystyrenic
Na+
1.5
56 - 60
1.22
Ca →Na
12
Designed specially for small scale domestic
softening. Potable water grade.
C100X10
Gel
Polystyrenic
Na+
2.2
40 - 43
1.30
Na →H
6
Excellent resistance to oxidation. Higher density
cation resin offering good separation from anion
resins in mixed bed applications and weak acid
cation resins in layered beds.
SGC650
Supergel™
Polystyrenic
Na+
2.2
40 - 43
1.30
Na →H
8
Uniform particle size used for condensate
polishing and make up MB’s. Offers excellent
physical strength and high resistance to OSA.
C150
Macroporous
Polystyrenic
Na+
1.25
Na →H
4
Macroporous structure offers high resistance to
OSA. Employed in areas of very difficult operating
conditions such as condensate treatment and
process applications.
Na →H
4
Higher cross linked macroporous resin with higher
exchange capacity offering excellent resistance to
oxidation. For process applications, such as
non-ferrous hydrometallurgy and in the treatment
of industrial waste streams.
PUROLITE®
C160
Macroporous
Polystyrenic
Na+
1.8
2.4
48 - 53
35 - 40
1.30
REMARKS &
APPLICATIONS
NOTE: Above products also available in the H+ form.
SHALLOW SHELL TECHNOLOGY
PUROLITE
TYPE
IONIC
FORM
DRY WEIGHT
CAPACITY
eq/kg
MOISTURE
RETENTION
%
SPECIFIC
GRAVITY
REVERSIBLE
SWELLING
%
REMARKS &
APPLICATIONS
Shallow Shell Technology resin primarily for high
performance softening for reducing operating
costs through savings in rinse and regenerant
consumption. Use SST60H for demineralization.
SST60
Gel
Polystyrenic
Na+
*3.8
38 - 46
1.20
Ca → Na
8
SST65
Gel
Polystyrenic
Na+
*3.9
40 - 47
1.20
Ca → Na
8
For use in the CIX-RO™ Process using RO
reject brine as a regenerant.
SST80
Gel
Polystyrenic
Na+
1.27
Ca → Na
8
Shallow Shell Technology resin primarily for
softening of high TDS water at elevated
temperature. Reduces operating cost through
savings in rinsing and regenerant consumption.
*4.2
42 - 48
*SST products typically have equal or higher operating capacities than standard grade ion exchange resins based on multiple cycles.
Page 2
WEAK ACID CATION EXCHANGERS
TOTAL
VOLUME
CAPACITY
eq/l
MOISTURE
RETENTION
%
SPECIFIC
GRAVITY
PUROLITE
TYPE
IONIC
FORM
C104Plus
Porous
Polyacrylic
H+
4.5
45 - 52
1.19
C106
Macroporous
Polyacrylic
H+
2.7
54 - 64
1.15
C107E
Macroporous
Polyacrylic
H+
3.6
53 - 58
1.18
C115E
Porous
Polymethacrylic
H+
3.5
46 - 53
1.10
REVERSIBLE
SWELLING
%
H → Ca
20
H → Na
70
H → Ca
15
H → Na
50
H → Ca
25
H → Na
90
H → Ca
40
H → Na
100
REMARKS &
APPLICATIONS
High capacity regenerable dealkalization resin with
good exchange kinetics. Also available in food grade
as C104EPlus.
Higher resistance to OSA. For process applications,
such as antibiotics extraction from fermentation broths
and treatment of ammoniacal condensates.
Food Grade, specifically designed dealkalization resin
for use in small cartridges for domestic applications.
Not usually regenerated.
Very weakly acidic for process applications especially
in the pharmaceutical industry. Recommended for the
CARIX™ process.
SHALLOW SHELL TECHNOLOGY
PUROLITE
TYPE
Gel
Acrylic
SST104
IONIC
FORM
DRY WEIGHT MOISTURE
SPECIFIC
CAPACITY RETENTION
GRAVITY
eq/kg
%
H+
*6.6
34 - 44
REVERSIBLE
SWELLING
%
1.17
H → Ca
10
REMARKS &
APPLICATIONS
Unique product with high efficiency and less
susceptible to heavy metal fouling. Particularly suited
to high TDS softening. Reduces operating cost
through savings in rinsing and regenerant
consumption.
*SST products typically have equal to higher operating capacities than standard grade ion exchange resin based on multiple cycles.
PARTICLE SIZE DISTRIBUTION – CATION EXCHANGERS
NOMINAL
PARTICLE
SIZE
µm
MAX % BELOW
LOWER LIMIT
UNIFORMITY
COEFFICIENT
STD
300 -1200
1% < 300
≤ 1.7
Standard grade.
MB
425 - 1200
2% < 425
≤ 1.6
Mixed Bed grade.
TL Gel
550 - 1000
1% < 550
≤ 1.3
TL Macroporous
710 - 1200
1% < 710
≤ 1.3
Higher purity Mixed Bed grade which can be used with intermediate
inert spacer in 3-component Mixed Bed systems (Trilite).
DL Strong
630 - 1200
5% < 630
≤ 1.4
Layered Beds, Lower Layer.
DL Weak
300 - 850
2% < 300
≤ 1.4
Layered Beds, Upper Layer.
S/C
425 - 1200
2% < 425
≤ 1.6
High flow rate IWT and special process applications. (treatment of
sugar solutions, etc.)
G
500 - 1200
2% < 500
≤ 1.5
Very high flowrate softening applications, such as dishwashers.
MEAN
DIAMETER
µm
UNIFORMITY
COEFFICIENT
570 ± 50
1.1 - 1.2
High efficiency softening and demineralization. Excellent kinetics and rinse properties.
650 ± 50
1.1 - 1.2
High efficiency softening and demineralization. Counter flow packed bed system. Mixed bed
cation component employed with PUROFINE anion grade.
750 ± 100
1.2 - 1.4
High efficiency softening and demineralization. Counter flow packed bed system.
PUROLITE GRADE
PUROLITE GRADE
PUROFINE®
®
PUROPACK
Gel
PUROPACK®
Macroporous and
Acrylics
REMARKS &
APPLICATIONS
REMARKS &
APPLICATIONS
NOTE: Most resins presented in this catalog can be supplied as Purofine® and Puropack® grades (specific literature available).
Page 3
STRONG BASE ANION EXCHANGERS
PUROLITE
TYPE
IONIC
FORM
TOTAL
MOISTURE
VOLUME
SPECIFIC
RETENTION
CAPACITY
GRAVITY
%
eq/l
MAXIMUM
SWELLING
%
REMARKS &
APPLICATIONS
Used primarily in industrial water treatment in warmer
climates due to its higher temperature stability. Offers the
best silica removal even in co-flow regenerated plants. Also
widely used in mixed beds as A400MB, PFA400MB or
A400TL.
Alternative high moisture gel anion resin for
demineralization and as organic scavenger on high TOC
waters.
A400
Type I
Gel
Polystyrenic
Cl-
1.3
48 - 54
1.08
Cl → OH
20
A444
Type I
Gel
Polystyrenic
Cl-
1.0
50 - 60
1.07
Cl → OH
20
A600
Type I
Gel
Polystyrenic
Cl-
1.4
43 - 48
1.09
Cl → OH
20
A200
Type II
Gel
Polystyrenic
Cl-
1.3
45 - 51
1.08
A300
Type II
Gel
Polystyrenic
Cl-
1.4
40 - 45
1.10
Cl → OH
10
SGA550
Type I
Supergel™
Polystyrenic
Cl-
1.4
43 - 48
1.09
Cl → OH
24
A500
Type I
Macroporous
Polystyrenic
Cl-
1.15
53 - 58
1.08
Cl → OH
15
A500P
Type I
Macroporous
Polystyrenic
Cl-
0.8
63 - 70
1.04
Cl → OH
20
A501P
Type I
Macroporous
Polystyrenic
Cl-
0.6
70 - 75
1.04
Cl → OH
20
Specifically designed for the adsorption of colloidal
particulate (silica, organic matter, metals, clays, etc.).
A510
Type II
Macroporous
Polystyrenic
Cl-
1.15
44 - 51
1.08
Cl → OH
10
Macroporous version of A200 offering better resistance to
OSA and organic fouling due to its polymer structure.
Cl → OH
15
Gel
Polyacrylic
Cl-
1.25
57 - 62
1.09
Cl → OH
15
A860S
Macroporous
Polyacrylic
Cl-
0.8
66 - 72
1.08
Cl → OH
20
A870
Gel
Dual
Functionality
Polyacrylic
Cl-/FB
1.25
56 - 62
1.08
Cl → OH
10
A850
Premium grade resin with high total capacity and high
breaking weight. Very low silica leakage.
High capacity resin offering good silica removal, primarily
used in the production of demineralized and dealkalized
water.
Premium grade high capacity resin offering good silica
removal. Primarily used in the production of demineralized
and dealkalized water.
Uniform particle size Supergel resin with higher resistance
to mechanical and osmotic shock. Recommended for
condensate polishing and make-up mixed beds, operating
in conjunction with SGC650.
Macroporous version of A400 offering greater resistance to
OSA. Mainly used in condensate polishing or make-up
mixed beds, where its polymer structure helps in resisting
organic fouling.
Polystyrenic based organic scavenger resin used to reduce
NOM (Natural Organic Matter) and color levels and fouling
of downstream anion resins. Also supplied as A500PS for
potable water and food applications.
Most widely used resin for the demineralization of high
organic bearing waters, offering the best resistance to
organic fouling. Higher operating capacity than type I
polystyrenic resins, while still offering very good silica
leakage in co-flow and counter-flow regeneration.
Acrylic based organic scavenger resin used to reduce NOM
(Natural Organic Matter) color levels and fouling of
downstream anion resins. Also supplied as A860S for
potable water and food applications. Better suited to brineonly regeneration than A500P.
Bifunctional resin combining weak and strong base sites on
the same beads, offering the highest operating capacity and
good resistance to organic fouling. Should not be used
where the feed water contains a high weak acid anionic
loading (CO2 + SiO2). Recommended weak acid loading
less than 20%.
NOTE: Most of the above products are also available in the OH- form.
SBA resins are temperature sensitive. This must be taken into consideration in selecting the correct product.
Please consult your local Purolite office.
Page 4
WEAK BASE ANION EXCHANGERS
TOTAL
MOISTURE
VOLUME
SPECIFIC
RETENTION
CAPACITY
GRAVITY
%
eq/l
MAXIMUM
SWELLING
%
TYPE
IONIC
FORM
A100
Macroporous
Polystyrenic
Free Base
1.3
53 - 60
1.04
Free Base  Cl
22
A103S
Macroporous
Polystyrenic
Free Base
1.6
48 - 55
1.04
Free Base  Cl
25
A105
Macroporous
Polystyrenic
Free Base
1.1
58 - 65
1.02
Free Base  Cl
20
A109
Macroporous
Polystyrenic
Free Base
1.0
58 - 65
1.05
A111
Macroporous
Polystyrenic
Free Base
1.7
56 - 62
1.02
Free Base  Cl
40
A120S
Macroporous
Polystyrenic
Free Base
1.2
58 - 63
1.04
Free Base  Cl
25
A133S
Macroporous
Polystyrenic
Free Base
1.8
46 - 51
1.04
Free Base  Cl
25
A830
Macroporous
Polyacrylic
Free Base
2.75
50 - 56
1.10
Free Base  Cl
20
A847
Gel
Polyacrylic
Free Base
1.6
56 - 62
1.08
Free Base  Cl
25
PUROLITE
Free Base  Cl
25
REMARKS &
APPLICATIONS
Most widely used WBA in IWT due to its good resistance to
organic fouling and high operating capacity. Also used in
the food industry as A100S.
Higher capacity resin more commonly employed for the
demineralization and decolorization of glucose syrups and
other organic solutions.
Resin with excellent resistance to organic fouling and
osmotic shock. High moisture, good exchange kinetic,
particularly suitable for continuous ion exchange systems.
Special WBA resin with primary amine functional groups.
Excellent chemical and thermal stability. High resistance to
osmotic shocks.
High moisture, high capacity WBA resin without any
quaternary ion exchange groups. Can offer significant
advantages for high organic bearing waters and
sweeteners solutions.
Demineralization and decolorization of sweeteners
solutions. Also used for color bodies removal from waste
waters.
High capacity WBA resin for demineralization and
decolorization of glucose solutions.
Very high exchange capacity polyamine resin developed
for special applications such as desulphatation of
seawater.
First choice acrylic WBA resin for IWT offering higher
capacity than polystyrenic resins and good rinse
characteristics. Good reversible removal of organics due to
more hydrophilic acrylic polymer.
PARTICLE SIZE DISTRIBUTION – ANION EXCHANGERS
NOMINAL
PARTICLE
SIZE
µm
MAX % BELOW
LOWER LIMIT
UNIFORMITY
COEFFICIENT
STD
300 - 1200
1% < 300
≤ 1.7
Standard grade.
MB
300 - 1200
1% < 300
≤ 1.7
Mixed Bed grade.
TL Gel
425 - 850
1% < 425
≤ 1.35
TL Macroporous
425 - 850
1% < 425
≤ 1.35
Higher purity Mixed Bed grade which can be used with intermediate inert
spacer in 3-component Mixed Bed systems (Trilite™).
DL Strong
630 - 1200
5% < 630
≤ 1.4
Layered Beds, Lower Layer.
DL Weak
300 - 630
3% < 300
≤ 1.4
Layered Beds, Upper Layer.
S/C
425 - 1200
2% < 425
≤ 1.6
High flow rate IWT and special process applications. (treatment of sugar
solutions, etc.)
MEAN
DIAMETER
µm
UNIFORMITY
COEFFICIENT
570 ± 50
1.1 - 1.2
High efficiency grade with excellent kinetics and rinse properties. Also employed as mixed
bed anion component with PFC and PPC grade cation resins.
650 ± 50
1.1 - 1.2
High efficiency grade particularly suited to counter flow regenerated packed bed systems.
750 ± 100
1.2 - 1.4
High efficiency grade particularly suited to counter flow regenerated packed bed systems.
PUROLITE
GRADE
PUROLITE
GRADE
PUROFINE®
PUROPACK®
Gel
PUROPACK®
Macroporous and
Acrylics
REMARKS &
APPLICATIONS
REMARKS &
APPLICATIONS
NOTE: Most resins presented in this catalog can be supplied as Purofine® and Puropack® grades (specific literature available).
Page 5
READY TO USE MIXED BEDS
PUROLITE
MB400
IONIC
FORM
COMPONENT
DESCRIPTION
TYPICAL
WORKING
CAPACITY
eq/l
REMARKS &
APPLICATIONS
H+ / OH-
40%
Strong Acid Cation Gel
60%
Strong Base Anion Gel
Type I
0.60
For the production of high-purity, silica-free demineralized water. Principal use in polishing
units after small IEX or RO plants. Also used in direct treatment of raw waters. High operating
capacity, achieving conductivities less than 0.1 S/cm in many polishing applications.
MB400 is the most popular ready to use industrial grade mixed bed.
0.60
This product is the highest quality industrial grade mixed bed offering enhanced performance
between that associated with industrial and UPW grades.
0.70
High capacity mixed bed, specific for the EDM market (spark erosion machining). Also used for
direct treatment of raw waters with high alkalinity.
0.60
Primarily used for EDM applications.
MB3720
H+ / OH-
MB46LT
H+ / OH-
MB478LT
H+ / OH-
NOTE:
40%
Strong Acid Cation Gel
60%
Strong Base Anion Gel
Type I
50%
Strong Acid Cation Gel
50%
Strong Base Anion Gel
Type I
50%
Strong Acid Cation Gel
50%
Strong Base Anion Gel
Type I
Working capacities to full exhaustion, typical for the first column in a lead-lag layout and dependent on influent water quality and end point.
Many other special customized Mixed Beds are produced with and without indicators – consult your local Purolite sales office.
READY TO USE MIXED BEDS WITH INDICATOR
PUROLITE
IONIC
FORM
COLOR CHANGE
ON EXHAUSTION
Blue (regenerated)
Amber (exhausted)
MB400IND
H+ / OHIndicator on anion
component
MB600AE
H+ / OH-
Greenish Blue
(regenerated)
Reddish Amber
(exhausted)
Indicator on anion
component
MB59VC
NOTE:
H+ / FB
REMARKS &
APPLICATIONS
0.60
For the production of high-purity, silica-free demineralized water.
Principal use in polishing units after small IEX or RO plants.
Also used in direct treatment of raw waters. High operating
capacity, achieving conductivities less than 0.1 S/cm in many
polishing applications.
0.66
High performance mixed bed with special particle size and
bright color change thanks to the unique indicator used.
Product successfully used in the production of cartridges for
steam irons.
0.54
High contrast color change mixed bed with a UV stable indicator
for the production of high quality demineralized water. Can be
used in polishing units as well as for the direct treatment of raw
waters.
Product successfully used in the production of cartridges for
steam irons.
1.1
Very high capacity mixed bed employing a WBA component for
the production of partially demineralized water, where removal
of CO2 and SiO2 is not required.
Typical run end point of 30 - 50 S/cm.
40%
Strong Acid Cation Gel
60%
Strong Base Anion Gel Type I
Indicator on cation
component
Green (regenerated)
Blue (exhausted)
Indicator on cation
component
60%
Strong Acid Cation Gel
40%
Weak Base Anion Macroporous
H+ / OH-
TYPICAL
WORKING
CAPACITY
eq/l
40%
Strong Acid Cation Gel
60%
Strong Base Anion Gel Type I
40%
Strong Acid Cation Gel
60%
Strong Base Anion Macroporous
Type I
Green (regenerated)
Blue (exhausted)
MB500VC
COMPONENT
DESCRIPTION
Working capacities to full exhaustion, typical for the first column in a lead-lag layout and dependent on influent water quality and end point.
Many other special customized Mixed Beds are produced with and without indicators – consult your local Purolite sales office.
Page 6
NUCLEAR GRADE PRODUCTS
TOTAL
MOISTURE
IONIC CAPACITY
RETENTION
FORM
eq/l
%
REMARKS &
APPLICATIONS
PUROLITE
TYPE
NRW1000
Gel
Strong Acid Cation
H+
1.8
51 - 55
Make up demineralization and radwaste systems.
This cation resin is not normally used in Li or 7Li forms as a stand-alone resin.
NRW1100
Gel
Strong Acid Cation
H+
2.0
46 - 50
Used in separate bed cation vessels for polishing or layered on mixed bed resins for
added cation capacity. Also available in 7Li, Li and NH4 forms. Higher capacity version
of NRW1000.
NRW1160
Gel
Strong Acid Cation
H+
2.5
36 - 41
Primary purification cation beds for delithiation and outage clean up. Polishing steam
generator blow down and layering on polishing mixed beds. Also available in 7Li form.
NRW160
Macroporous
Strong Acid Cation
H+
2.1
43 - 48
Polishing steam generator blow down and layering on polishing mixed beds. Primary
purification cation beds for delithiation and outage clean up. Selective for 137Cs. Also
available in 7Li form.
NRW4000
Gel
Strong Base Anion
OH-
1.0
48 - 54
(Cl- form)
Separate bed demineralizer anion radwaste systems. Type 1, nuclear grade version of
A400, offering good silica removal and removal of weak and strong acids.
NRW6000
Gel
Strong Base Anion
OH-
1.1
43 - 48
(Cl- form)
Primary and secondary separate bed demineralizer anion. Also used as underlay in
condensate polishing. Higher total capacity version of NRW4000.
NRW7000
Gel
Strong Base Anion
OH-
1.15
42 - 47
(Cl- form)
Primary and secondary separate bed demineralizer anion. Also used as underlay in
condensate polishing.
NRW5010
Macroporous
Strong Base Anion
OH-
0.4
70 - 75
(Cl- form)
Special nuclear grade colloid removal resin for single beds or surface layer on mixed
beds to achieve ultra polishing of primary coolant and radwaste.
NRW5050
Macroporous
Strong Base Anion
OH-
0.9
53 - 58
(Cl- form)
Porous structure designed to give greater resistance to surface fouling in a wide range of
nuclear applications.
NUCLEAR GRADE MIXED BEDS
PUROLITE
IONIC FORM
COMPONENTS
TOTAL
VOLUME
CAPACITY
MIN eq/l
NRW3240
H+/OH-
Gel Cation
Gel Anion
1.8/1.0
NRW3460
H+/OH-
Gel Cation
Gel Anion
2.0/1.1
NRW3560
H+/OH-
Macroporous Cation
Gel Anion
2.1/1.1
NRW3670
H+/OH-
Gel Cation
Gel Anion
2.5/1.15
(1)(2)
(1)(2)
(1)
REMARKS &
APPLICATIONS
Primary polishing, clean up systems, and radwaste.
Higher total capacity version of NRW3240 for primary polishing, clean up systems and
radwaste.
Mixed Bed with very high capacity and porous cation for primary purification, steam
generator blow down and spent fuel pool demineralization.
Primary polishing, condensate polishing, spent fuel pool demineralizer, steam generator
blow down demineralizer and reactor water cleanup.
(1) Cation component available in 7Li form
(2) Cation component available in Li form
PURITY OF NUCLEAR GRADE ION EXCHANGERS
NOTES:
CATION RESINS
IONIC FORM
CONVERSION
A.
Nuclear grade mixed beds are normally supplied with near
stoichiometric equivalents of anion and cation resin sites. Other
ratios can be supplied on request.
B.
Purolite Nuclear Grade Products are in operation within the
defense industry or nuclear power stations in the Americas,
Europe and Asia and carry formal approvals from leading
operators of nuclear installations. They meet internationally
recognized specifications from the leading suppliers of nuclear
power station designs.
H+
or 7Li+
IMPURITIES
Sodium
Iron
Heavy Metals as
Lead
Li+
99.9% min.
99.9% min.
mg/kg dry
40 max.
50 max.
40 max.
ANION GEL RESINS
IONIC FORM
CONVERSION
OHCO32Cl*SO42IMPURITIES
Sodium
Iron
Heavy Metals as
Lead
95% min.
5% max.
0.1% max.
0.1% max.
mg/kg dry
20 max.
50 max.
30 max.
*0.3% max. for NRW5010.
Page 7
ULTRAPURE WATER PRODUCTS
TOTAL
MOISTURE
SPECIFIC
VOLUME
RETENTION
GRAVITY
CAPACITY
%
MOIST BEADS
MIN eq/l
TYPE
IONIC
FORM
UCW9126
Gel
Strong Acid
Cation
H+
1.9
49 - 54
1.21
Ultrapure Water Cation Resin with very low TOC release
operating in single beds or mixed beds with anion component
UCW5072.
UCW5072
Gel
Strong Base
Anion
OH-
1.0
55 - 60
(Cl- form)
1.07
Ultrapure Water Anion Resin with very low TOC release
operating in single beds or mixed beds with cation
component UCW9126.
UCW1080
Macroporous
Complex Amine
Free Base
0.6
(FB form)
61 - 67
(Cl- form)
1.10
Semiconductor Industry - Ultrapure Water for Selective
Boron Removal.
ULTRACLEAN™
REMARKS &
APPLICATIONS
ULTRAPURE WATER MIXED BEDS
IONIC FORM
TOTAL VOLUME
CAPACITY
MIN
eq/l
MOISTURE RETENTION
%
UCW9964
H+ / OH-
Cation: 1.9
Anion: 1.0
Cation: 49 - 54%
Anion: 55 - 60%
(Cl- form)
Highest purity separable MB for final polishing and point of use
treatment for UPW systems. Highest resistivity and very low
TOC release.
UCW9966
H+ / OH-
Cation: 1.9
Anion: 1.0
Cation: 49 - 54%
Anion: 55 - 60%
(Cl- form)
Highest purity non separable MB for final polishing and point of
use treatment for UPW systems. Highest resistivity and very
low TOC release.
UCW3600
H+ / OH-
Cation: 1.9
Anion: 1.1
Cation: 49 - 54%
Anion: 55 - 62%
High operating capacity separable Mixed Bed for UPW
systems.
UCW3700
H+ / OH-
Cation: 1.9
Anion: 1.0
Cation: 46 - 50%
Anion: 60 - 70%
Separable Mixed Bed for UPW systems.
UCW3900
H+ / OH-
Cation: 2.0
Anion: 1.0
Cation: 49 - 54%
Anion: 60 - 70%
Separable Mixed Bed with higher capacity cation for UPW
systems.
ULTRACLEAN™
NOTE: The ratio of Cation to Anion is chemically equivalent at 1:1.
Page 8
REMARKS &
APPLICATIONS
PHARMACEUTICAL PRODUCTS
ACTIVE PHARMACEUTICAL INGREDIENTS
REMARKS &
APPLICATIONS
PUROLITE
TYPE USP/EP
C100NaMR
Sodium Polystyrene Sulfonate
Strong acid cation resin with sulfonic acid groups in sodium form; purified, ground and dried for the treatment
of hyperkalemia. Can also be used as a drug carrier for controlled release.
C100CaMR
Calcium Polystyrene Sulfonate
Strong acid cation resin with sulfonic acid groups in the calcium form; purified, ground and dried for the
treatment of hyperkalemia.
A430MR
A830EMR
Cholestyramine
Polyamine
Special strong base anion resin; purified chloride form, ground and dried for treatment of high cholesterol.
Weak base anion resin in free base form; purified, ground, dried and used as antacid to control gastric acidity.
NOTE: The manufacturing site is approved by the FDA and is cGMP certified.
EXCIPIENTS AND TABLET DISINTEGRANTS
PUROLITE
TYPE
REMARKS &
APPLICATIONS
C100HMR
Polystyrene Sulfonic Acid
Strong acid cation resin with sulfonic acid groups in hydrogen form; purified, ground, dried and used as a drug
carrier for controlled release.
Polyacrylic Acid
Special weak acid cation resin in hydrogen form; provided as very fine, dry beads and used as a drug carrier
for controlled release or as taste masking.
C115HMR
Polacrilex
Weak acid cation resin in hydrogen form; purified, ground, dried and used as a drug carrier or as pH adjuster
in the formulation of tablets.
C115KMR
Polacrilin Potassium
C108DR
Weak acid cation resin in potassium form; purified, ground, dried and used as a tablet disintegrant.
NOTE: Consult your local Purolite office for confirmation of regional, country or state regulatory compliance.
Page 9
HYDROMETALLURGICAL RESINS
TYPE
FUNCTIONAL
GROUP
*IONIC
FORM
CAPACITY
MOISTURE
RETENTION
%
A100/2412
Macroporous
Mixed Base
Anion
Mixed Tertiary &
Quaternary
Amines
Cl-
3.8 eq/kg
46 - 56
For effective recovery of aurocyanide complexes obtained
from the alkaline cyanide processing of gold ores. Suitable
for RIP process. 800-1300 µm grading.
S992
Macroporous
Weak Base /
Chelating
Mixed Amines
FB
4.4 eq/kg
47 - 55
For effective recovery of aurocyanide complexes obtained
from the alkaline cyanide processing of gold ores. Suitable
for RIP process. 800-1300 µm grading.
A500C
Macroporous
Strong Base
Anion
Quaternary
Ammonium
Cl-
1.15 eq/l
53 - 58
For effective recovery of gold complexes obtained from the
thiosulfate processing of gold ores.
PFA600/4740
Gel
Strong Base
Anion
Quaternary
Ammonium
Cl-
1.6 eq/l
40 - 45
For the extraction of uranyl sulfate and carbonate complexes
from the leachates originated from ISL, batch or heap
leaching processes.
A660/4759
Gel
Strong Base
Anion
Quaternary
Ammonium
Cl-
1.3 eq/l
44 - 52
For the extraction of uranyl sulfate complexes from the
sulfuric leachates. Suitable for RIP process. 800-1300 µm
grading.
PFA460/4783
Gel
Strong Base
Anion
Quaternary
Ammonium
Cl-
1.3 eq/l
47 - 54
For the extraction of uranyl sulfate complexes from the clean
sulfuric solutions.
A500U/2788
Macroporous
Strong Base
Anion
Quaternary
Ammonium
Cl-
1.15 eq/l
53 - 58
For uranium recovery. Suitable for RIP process. 800-1300
µm grading.
A500U/4994
Macroporous
Strong Base
Anion
Quaternary
Ammonium
Cl-
1.15 eq/l
53 - 58
For uranium recovery. Suitable for RIP process. 710-1300
µm grading.
A560/4790
Macroporous
Strong Base
Anion
Quaternary
Ammonium
Cl-
1.15 eq/l
49 - 56
For uranium recovery from the sulfuric solutions. Suitable for
RIP process. 800-1300 µm grading.
A100Mo
Macroporous
Mixed Base
Anion
Mixed Tertiary &
Quaternary
Amines
Cl-
1.2 eq/l
48 - 56
For molybdenum recovery from acid solutions.
S930Plus
Macroporous
Chelating
Iminodiacetic
Na+
50 g/l Cu
52 - 60
For base metals recovery from weak acid solutions.
S930/4888
Macroporous
Chelating
Iminodiacetic
Na+
50 g/l Cu
52 - 60
For base metals recovery from weak acid solutions. Suitable
for RIP process. 800-1300 µm grading.
S950
Macroporous
Chelating
Aminophosphonic
Na+
26 g/l Ca
60 - 68
For recovery of uranium from phosphoric acid.
S960
Macroporous
Chelating
Bis-picolylamine
SO42-
25 g/l Ni
50 - 60
For sorption of base metals from more concentrated sulfuric
solutions and separation of base metals.
A170/4675
Macroporous
Weak Base
Anion
Complex Amine
FB
1.3 eq/l
42 - 47
(Cl)
For selective sorption of rhenium from acid streams. Suitable
for RIP process. 600-1200 µm grading.
A172/4635
Gel
Weak Base
Anion
Complex Amine
FB
1.2 eq/l
25 - 45
(Cl)
For separation of rhenium from molybdate.
S984
Macroporous
Weak Base /
Chelating
Mixed primary,
secondary and
tertiary amines
FB
2.7 eq/l
50 - 56
For tungsten impurity removal from molybdate solutions.
S957
Macroporous
Strong Acid
Cation /
Chelating
Mixed Sulfonic
and Phosphonic
Na+
18 g/l Fe
55 - 70
For removal of ferric iron from copper, nickel or cobalt
electrolytes as well as molybdenum sorption from strong acid
solutions.
PUROLITE
REMARKS &
APPLICATIONS
*Some products can be supplied in customized ionic form.
Page 10
ADSORBENTS
PUROSORB™
POLYMER
MATRIX
PORE
DIAMETER
Å*
PORE
VOLUME
ml/g*
SURFACE
AREA
m2/dry g**
MOISTURE
RETENTION
%
PAD350
Polystyrenic
350
0.7
700
58 - 64
PAD400
Polystyrenic
400
0.7
720
55 - 61
PAD500
Polystyrenic
620
1.0
700
63 - 69
PAD550
Polystyrenic
600
1.1
950
58 - 64
PAD600
Polystyrenic
630
1.1
830
58 - 64
PAD700
Polystyrenic
700
1.2
550
56 - 62
PAD900
Polystyrenic
1000
1.5
800
67 - 73
PAD910
Polystyrenic
1100
1.6
540
62 - 68
PAD300
Polyacrylic
280
0.5
90
59 - 65
PAD610
Polyacrylic
700
1.1
490
60 - 66
PAD950
Polyacrylic
960
1.3
535
65 - 71
TYPE
VOLUME
CAPACITY
eq/l
PORE
DIAMETER
Å*
SURFACE
AREA
m2/dry g**
MOISTURE
RETENTION
%
MN100
Weak Base
Anion
0.1 - 0.3
(FB form)
900
900
57 - 61
(Cl- form)
MN102
Weak Base
Anion
0.1 - 0.3
(FB form)
750
700
50 - 60
(FB form)
MN200
Inert
-
900
900
57 - 61
MN202
Inert
-
750
700
50 - 60
MN270
Inert
-
25
1200
35 - 50
MN500
Strong Acid
Cation
0.8 - 1.0
(Na+ form)
900
900
52 - 57
(H+ form)
Sorption / Separation of hydrophobic organic species
MN502
Strong Acid
Cation
0.8 - 1.0
(Na+ form)
750
700
52 - 57
(H+ form)
Sorption / Separation of hydrophobic organic species
HYPERSOLMACRONET®
REMARKS &
APPLICATIONS
These two polystyrene based polymeric adsorbents offer consistent
enhanced performance over carbon and other adsorbents and are
specifically designed for selective adsorption of molecules with a relatively
low molecular weight. Polystyrenic adsorbents are more selective to nonpolar products and their pore size has been tightly controlled to enhance this
selectivity. The variations in surface area and pore volume give each product
unique advantages in certain applications. This includes the removal of
hydrocarbons and chlorinated solvents from ground waters and industrial
waste streams.
This unique product, characterized by medium size pores and a narrow
particle size distribution, offers definitive advantages over standard grade
adsorbents. Its uniform beads ensure lower pressure drop in service duty and
enhanced elution profiles of the adsorbed species on desorption. Typical
applications include the extraction and separation of antocyans and
polyphenols from grape must and other fruit juices.
These three products differ in offering a range of surface areas, pore volumes
and pore sizes specifically tailored for applications where medium to large
molecular weight species are targeted within the application. Typical
applications include the isolation and purification of Active Pharmaceutical
Ingredients.
Special manufacturing techniques are employed to manufacture this range of
polystyrene based adsorbents offering the largest pore sizes. They are
designed to capture the largest molecular weight species in a wide range of
applications such as the extraction of antibiotics from fermentation broths or
bitterness removal from citrus juices.
These products are all based on an acrylic matrix which gives them different
chemical properties. Their less hydrophobic structure enables them to
outperform polystyrene based synthetic adsorbents in non-polar media but
does not mean they cannot be used in aqueous solutions. They have widely
differing surface areas, pore volumes and pore sizes to cover a wide range of
applications. The changes in these parameters alter the selectivity of each
product.
REMARKS &
APPLICATIONS
For the efficient sorption of high molecular weight color bodies such as
those found in sugar solutions and many complex organics such as
dyestuffs or certain pesticides.
For the efficient sorption of high molecular weight organic molecules
such as limonin and narangin from fruit juices. Regenerated more easily
than other materials due to its weak base functionality.
For the efficient sorption of high molecular weight organic molecules
with lipophilic properties (dyestuffs, pesticides) in industrial process
waste water treatment.
For the efficient sorption of high molecular weight organic molecules
with lipophilic properties as are typically found in waste waters from
industrial processes. These include complex organics such as dyestuffs
or pesticides.
Sorption / Separation of hydrophobic organic species - Microporous
matrix. Pore Volume 0.2 – 0.4 ml/g.
*Hg intrusion method
**One point BET
Page 11
CHROMATOGRAPHIC RESINS
TYPE
TOTAL VOLUME
CAPACITY
eq/I
(Na form)
MEAN SIZE
TYPICAL
µm
MOISTURE
RETENTION
%
(Na form)
MOISTURE
RETENTION
%
(H form)
PCR145
Macroporous
Strong Acid
Cation
1.5
270 - 310
55 - 60
60 - 66
Cation chromatographic separation resins can be
supplied in Ca2+, Na+, K+ or H+ forms.
PCR450
Gel
Strong Acid
Cation
1.35
360 - 400
60 - 65
65 - 71
Ca2+ form separations:
Glucose-Fructose, Maltose
PCR631
Gel
Strong Acid
Cation
1.6
55 - 62
Na+ form separations:
Beet Molasses, Dextrose enrichment, Erythritol
PCR632
Gel
Strong Acid
Cation
1.7
210 - 250
52 - 55
55 - 61
PCR633
Gel
Strong Acid
Cation
1.6
210 - 240
50 - 56
55 - 62
PCR642
Gel
Strong Acid
Cation
1.6
295 - 335
52 - 56
57 - 61
PCR651
Gel
Strong Acid
Cation
1.6
330 - 360
52 - 56
57 - 61
PCR652
Gel
Strong Acid
Cation
1.6
350 - 370
52 - 56
57 - 61
PCR732
Gel
Strong Acid
Cation
1.8
210 - 250
50 - 52
53 - 57
PCR833
Gel
Strong Acid
Cation
2.0
225 - 275
44 - 48
51 - 55
TYPE
TOTAL VOLUME
CAPACITY
eq/l
(Cl form)
MEAN SIZE
TYPICAL
µm
MOISTURE
RETENTION
%
(Cl form)
Gel
Strong Base
Anion
1.3
230 - 280
48 - 57
PUROLITE
PUROLITE
PCA433
210 - 240
50 - 56
Page 12
REMARKS &
APPLICATIONS
K+ form separations:
Beet Molasses, Fructo-oligosaccharides,
Soluble fiber
H+ form separations:
Acid-Sugar (cellulose hydrolyzate)
REMARKS &
APPLICATIONS
Anion chromatographic separation resin can be
supplied in Cl-, SO42-, OH- forms
CATALYST RESINS
TYPE
FUNCTIONAL
GROUP
IONIC
FORM
TOTAL
CAPACITY
eq/dry kg
MOISTURE
RETENTION
%
CT122
Gel
Sulfonic
H+
4.8
78 - 82
CT124
Gel
Sulfonic
H+
5.0
65 - 70
CT151
Macroporous
Sulfonic
H+
5.1
54 - 59
CT169
Macroporous
Sulfonic
H+
4.7
51 - 57
CT175
Macroporous
Sulfonic
H+
4.9
53 - 58
CT251
Macroporous
Sulfonic
H+
5.2
54 - 59
CT252
Macroporous
Sulfonic
H+
5.4
54 - 58
CT269
Macroporous
Sulfonic
H+
5.2
51 - 57
CT275
Macroporous
Sulfonic
H+
5.2
54 - 59
CT276
Macroporous
Sulfonic
H+
5.3
51 - 59
CT482
Macroporous
Sulfonic
H+
4.0
61 - 68
PUROLITE
REMARKS &
APPLICATIONS
Recommended for esterification reactions and for the synthesis
of Bisphenol A.
Recommended for esterification reactions and for the synthesis
of Bisphenol A.
Specifically designed for catalysis of organic reactions, in
particular for the purification of phenol.
MTBE, ETBE, TAME, TAEE, Esterification, C4 dimerization.
Excellent accessibility of active sites. Studied and developed for
the synthesis of MTBE, ETBE and TAME.
Primarily used for phenol purification, esterification, C4
dimerization.
Primarily used for esterification, aromatic alkylation, phenol
purification, and C4 dimerization. Highest dry weight capacity.
High activity with very good mechanical resistance. Ideal for
esterification reactions and phenol alkylation.
High activity catalyst with excellent accessibility of active sites.
Recommended for the synthesis of MTBE, ETBE, TAME and
TAEE.
For MTBE, ETBE, TAME, and C4 dimerization. High dry weight
capacity.
High temperature catalysis. Hydration of olefins in MEK process,
hydrogenation of MIBK.
NOTE: Most products are also available in DR (Dry) grade
CHELATING RESINS
PUROLITE
FUNCTIONA
L GROUP
IONIC
FORM
CAPACITY
MOISTURE
RETENTION
%
S110
Nmethylglucamine
Free
Base
0.8 eq/l
40 - 50
(Cl-)
S910
Amidoxime
Free
Base
40 g/l Cu
52 - 60
S920
Isothiouronium
H+
200 g/l Hg
48 - 54
S924
Thiol
H+
200 g/l Hg
45 - 51
S930Plus
Iminodiacetic
Na+
50 g/l Cu
52 - 60
S940
Aminophosphonic
Na+
20 g/l Ca
55 - 65
S950
Aminophosphonic
Na+
26 g/l Ca
60 - 68
S957
Phosphonic/
Sulfonic
H+
18 g/l Fe
55 - 70
S960
Bis-picolylamine
SO42-
25 g/l Ni
50 - 60
S985
Polyamine
Free
Base
2.3 eq/l
52 - 57
REMARKS &
APPLICATIONS
Removal of boron from brines, concentrated aqueous solutions and waste waters.
For potable water applications see S108
Selective removal of heavy metals from wastewater and hydrometallurgical
processes.
High selectivity and high capacity for mercury removal in wastewaters. Widely
used for final polishing to meet mercury discharge limits. Selective removal of
precious metals (gold, platinum, palladium, etc) from acidic solutions. Nonregenerable use.
Regenerable resin designed for the selective removal of mercury from
wastewaters and special applications (i.e. chlor-alkali plants).
Improved version of S930 widely used as a general metals polisher from a wide
variety of wastes. Purification of brine in chlor-alkali plants offering highly efficient
removal of strontium. Extremely high copper capacity. Countless applications in
non-ferrous hydro‐metallurgy.
Highly selective for low atomic weight metals. Also used in purification of brine
where lower strontium levels are encountered in chlor-alkali plants.
Selective removal of heavy metals from wastewaters. Purification of selected
plating baths in the surface finishing industry. (i.e. Bright Nickel bath rejuvenation)
Resin for removing trace iron from drinking water. Applications in the purification
of galvanic baths including removal of iron in low pH applications. Purification of
selected plating baths in the surface finishing industry.
For sorption of base metals from more concentrated sulfuric solutions and
separation of base metals.
Removal of heavy metals present in complexed form (e.g. EDTA complexes) from
wastewaters.
Page 13
POWDERED RESINS FOR CONDENSATE POLISHING
MICROLITE
®
PrCH
PrCN
PrAOH
FC+
STANDARD
MOISTURE
PACKAGING
RETENTION
DRY WEIGHT
%
kg
TYPE
FUNCTIONAL
GROUP
IONIC
FORM
TOTAL
CAPACITY
eq/kg
Cation
Sulfonic
H+
4.8
45 - 62
8.8
100% Powdered Cation Hydrogen Form.
Cation
Sulfonic
NH4+
4.8
40 - 60
10.2
100% Powdered Cation Ammonia Form.
Anion
Quaternary
Ammonium
OH-
4.0
50 - 60
5.7
100% Powdered Anion Hydroxide Form.
Cellulose
Fiber
Inert
Neutral
-
55 - 75
5.5
100% Specialty Cellulose Fiber.
REMARKS &
APPLICATIONS
POWDERED RESIN PREMIXES
MICROLITE
®
TYPE
FUNCTIONAL
GROUP
Sulfonic/
Quaternary
Ammonium
Sulfonic/
Quaternary
Ammonium
IONIC
FORM
TOTAL
CAPACITY
eq/kg
RATIO
CATION to
ANION
dry wt.
STANDARD
RATIO
PACKAGING
FIBER to
DRY WEIGHT
RESIN
kg
H+ / OH-
4.8 / 4.0
4:5
1:2
5.5
Resin/Fiber blend. Also available in
ammonium / hydroxide form.
H+ / OH-
4.8 / 4.0
4:5
1:9
5.5
Resin/Fiber blend. Also available in
ammonium / hydroxide form.
REMARKS &
APPLICATIONS
CG12H
Cation/
Anion/ Fiber
CG19H
Cation/
Anion/ Fiber
CG4H
Cation/
Anion/ Fiber
Sulfonic/
Quaternary
Ammonium
H+ / OH-
4.8 / 4.0
1:1
1:1
5.5
Resin/Fiber blend. Also available in
ammonium / hydroxide form.
Cation/
Anion
Sulfonic/
Quaternary
Ammonium
H+ / OH-
4.8 / 4.0
1:1
-
5.5
Resin only. Also available in ammonium /
hydroxide form.
MB1/1H
NOTE: Other custom made resin/fiber premixed combinations available upon request.
SELECTIVE RESINS FOR POTABLE WATER
TYPE
FUNCTIONAL
GROUP
IONIC
FORM
TOTAL
CAPACITY
eq/l
MOISTURE
RETENTION
%
A520E
Macroporous
Strong Base
Anion
Quaternary
Ammonium
Cl-
0.9
50 - 56
Selective nitrate removal resin for municipal water, food /
drink production and domestic applications.
A530E
Macroporous
Strong Base
Anion
Quaternary
Ammonium
Cl-
0.6
49 - 55
Selective removal of perchlorate, pertechnetate and other
oxyanions from water for potable use.
A532E
Gel
Strong Base
Anion
Quaternary
Ammonium
Cl-
0.8
36 - 45
Ultra high selectivity and capacity for perchlorate,
pertechnetate and other oxyanions from water for potable
use.
S108
Macroporous
Anion
Nmethylglucamine
Free
Base
0.6
61 - 67
(Cl-)
Selective removal of boron from potable water and water
used in agriculture/horticulture irrigation. For industrial
applications see S110.
PUROLITE
Page 14
REMARKS &
APPLICATIONS
SPECIAL ION EXCHANGERS
PUROLITE
TYPE
FUNCTIONAL
GROUP
IONIC
FORM
TOTAL
CAPACITY
eq/l
MOISTURE
RETENTION
%
MPR1000
Macroporous
Strong Base
Anions
Quaternary
Ammonium
Cl-
0.6
68 - 74
C100EAg
Gel Strong
Acid Cation
Sulfonic
Na+
1.9
46 - 50
C150Ag
Macroporous
Strong Acid
Cation
Sulfonic
Na+/Ag+
1.8
48 - 53
A605
Gel Iodinated
Strong Base
Anion
Quaternary
Ammonium
Cl-/I-
-
-
HM6 / HM10
Hydroponic
Resin
Sulfonic /
Tertiary Amine
H+/FB/
Nutrients
-
-
NRW100QR
Gel
Strong Acid
Cation
Sulfonic
H+
1.9 (Na)
53 - 57 (H)
C100EVCH
Gel
Strong Acid
Cation
Sulfonic
H+
1.9 (Na)
53 - 57 (H)
A200MBOH IND
Gel
Strong Base
Anion
Type II
Quaternary
Ammonium
OH-
1.3 (Cl)
45 - 51 (Cl)
A400MBOH IND
Gel
Strong Base
Anion
Type I
Quaternary
Ammonium
OH-
1.3 (Cl)
48 - 54 (Cl)
CT275Ag
Macroporous
Strong Acid
Cation
Sulfonic
H+/Ag+
5.2
51 - 59
PD206
Gel
Strong Acid
Cation
Sulfonic
H+
4.9 eq/kg
-
OL100
Gel
Strong Acid
Cation
Sulfonic
Na+
1.9
44 - 48
Page 15
REMARKS &
APPLICATIONS
Proprietary resin blend for reducing membrane fouling by
removing colloidal materials and dissolved organic matter from
RO feedwater. Significant SDI reduction.
Softening resin with bacteriostatic properties containing a small
proportion of special silver loaded resin.
Silver loaded resin used as bacteriostatic additive for softening
resins.
Iodine release anion resin for disinfecting potable water at point
of use. For remote locations and treatment of contaminated
water.
Two products for nutrient release for healthy growth and
development of ornamental plants in hydroculture.
Cation resin with indicator. On exhaustion, color changes from
neutral (regenerated form) to red (exhausted form). Widely used
for after-cation conductivity measurement for monitoring
condensate quality on power stations.
Cation resin with indicator. On exhaustion color changes from
green (regenerated form) to blue (exhausted form).
High capacity Type 2 anion resin with indicator. Upon
exhaustion color changes from blue (regenerated form) to
neutral form (exhausted form). Used in HCl vent scrubbers and
demineralization tank vents to stop CO2 ingress.
Type 1 version of A200MBOHIND. Also available as
macroporous product as A500MBOHIND.
Anion resin with indicator. Upon exhaustion color changes from
blue (regenerated form) to neutral form (exhausted form).
Silver loaded resin for the removal of alkyl iodides (C1 to C12 or
higher) in organic solvents such as acetic acid, under low
temperature conditions (<50°C) and /or high flow rate.
Premium dry resin with optimized residual moisture for biodiesel
purification for removal of glycerine, water and residual cations.
Helps to produce biodiesel to international recognized
standards.
Specially activated resin designed for oil separation from water
by coalescence. Primary application in deoiling of condensates.
SPECIAL PRODUCTS
TYPE
SHIPPING WEIGHT
g/l
PARTICLE SIZE OR
DIMENSION
mm
AC20
Granular Activated Carbon
470 - 490
0.4 - 1.4
AC20G
Granular Activated Carbon
470 - 490
0.6 - 2.4
IP1
Polyethylene
540 - 560
2.5 - 4.0
IP3
Polyacrylate
680 - 710
Mean 0.67 - 0.73
IP4
Polypropylene
520 - 550
1.1 - 1.5
IP7
Polyacrylate
680 - 710
Mean 0.67 - 0.73
IP9
HDPVC
800 - 900
3-5
Manganese Zeolite
1300 - 1400
0.25 - 1.0
CPM 7040
Cation Permselective
Membrane
380 - 420 g/m2
1000 x 3000
APM 7540
Anion Permselective
Membrane
380 - 420 g/m2
1000 x 3000
PUROLITE
MZ10
Page 16
REMARKS &
APPLICATIONS
For the removal of free chlorine & organic contaminants from
potable water.
Coarse version of AC20 for the removal of free chlorine &
organic contaminants from potable water.
Floating inert polymer for Puropack® systems with downflow
service.
Inert spacer for use in gel Trilite™ 3-component mixed beds.
Floating inert polymer in the form of small cylinders for
Puropack® systems with upflow service.
Blue colored inert spacer for use in macroporous high
performance Trilite™ 3-component mixed beds.
Heavy inert polymer for use as an underbed - cylindrical
form.
Activated greensand for removal of iron, manganese and
hydrogen sulfide from ground water.
Potable water treatment and pre-treatment for ion exchange
resins plants.
Heterogeneous membrane, permeable to cations; for
electrodialysis and anaphoresis.
Heterogeneous membrane, permeable to anions; for
electrodialysis and cataphoresis.
ABBREVIATIONS
CIX-RO
EDM
EDTA
EP
HDPVC
IEX
IWT
MB
MP
NOM
OSA
PFA
PPA
PFC
PPC
RIP
RO
SAC
SBA
SST
TDS
TOC
UPW
USP
UV
WAC
WBA
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
………………………
Cyclic Ion Exchange – Reverse Osmosis
Electrical Discharge Machining
Ethylenediaminetetraacetic acid
European Pharmacopoeia
High Density PolyVinylChloride
Ion Exchange
Industrial Water Treatment
Mixed Bed
Macroporous
Natural Organic Matter
Osmotic Shock and Attrition
Purofine® Anion
Puropack® Anion
Purofine® Cation
Puropack® Cation
Resin in Pulp
Reverse Osmosis
Strong Acid Cation
Strong Base Anion
Shallow Shell Technology
Total Dissolved Solids
Total Organic Carbon
Ultrapure Water
US Pharmacopoeia
Ultra-violet
Weak Acid Cation
Weak Base Anion
Page 17
Please call one of the main regional offices below to obtain full contact details for the nearest
Purolite office responsible for your area.
Americas
Purolite Company
150 Monument Road
Bala Cynwyd, PA 19004
Telephone:
Telephone:
Fax:
E-mail:
+1 800 343 1500
+1 610 668 9090
+1 610 668 8139
info@puroliteUSA.com
Europe
Purolite International Limited
Llantrisant Business Park,
Llantrisant, Wales
CF72 8LF
UK
Telephone: +44 1443 229334
Fax:
+44 1443 227073
E-mail:
sales@purolite.com
Asia Pacific
Purolite (China) Co Limited
Room 707, C Section
Huanglong Century Plaza
No. 3 Hangda Road
Hangzhou, Zhejiang
China 310007
Telephone: +86 571 876 31382
Fax:
+86 571 876 31385
Email:
info@purolitechina.com
For further information on Purolite products & services
visit www.purolite.com
Product Guide Rev 01/12
Page 18